CN103726351B - A kind of supercritical CO 2fluid reducing dye colouring method - Google Patents
A kind of supercritical CO 2fluid reducing dye colouring method Download PDFInfo
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- CN103726351B CN103726351B CN201310738714.8A CN201310738714A CN103726351B CN 103726351 B CN103726351 B CN 103726351B CN 201310738714 A CN201310738714 A CN 201310738714A CN 103726351 B CN103726351 B CN 103726351B
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Abstract
The present invention is applicable to field of dyeing process, provides a kind of supercritical CO
2fluid reducing dye colouring method, by adopting supercritical CO
2fluid dissolves the reducing dye without reduction reaction, dyes, meanwhile, add cosolvent to increase reducing dye at supercritical CO to polyster fibre, cellulose fibre, protein fibre and fabric thereof
2the solubility, dye level etc. of fluid, and add natural fabric swelling agent, being beneficial to reducing dye enters fibrous inside and dyes, and both substantial saving in water resource, also achieves good Color.
Description
Technical field
The invention belongs to field of dyeing process, particularly relate to a kind of supercritical CO
2fluid reducing dye colouring method.
Background technology
Along with textile industry develops rapidly, the environmental pollution that process of textile production causes receives publicity day by day.Country has worked out a series of strict environmental legislation in succession, supervises the sewage disposal of industrial quarters and discharge etc.According to statistics, the fabric weight of textile printing and dyeing processing and the ratio of water consumption are up to 1:100 ~ 1:150, and national dyeing and printing process water consumption estimates annual 1600000000 tons.At present, the Treated sewage reusing ratio of the sector production process is very low, and sewage disposal and discharge account for production cost ratio increases gradually.
Traditional dyeing course, using water as medium, plays dispersion and dissolving dye and auxiliary agent, soaks and the important function such as swollen fiber, seem do not have water just cannot dye.But nature freshwater resources start shortage, water pollutions is very serious.Now, in order to reduce water consumption and the dyeing waste of Colour Difference, people carry out large quantity research, are devoted to exploitation water saving and anhydrous staining technique.
Adopt supercritical CO
2fluid technique, utilizes reusable CO
2, at supercritical conditions with CO
2fluid is that medium carries out Colour Difference, and the integrated costs such as its energy resource consumption, lower than conventional dyeing process, achieve non-aqueous dyeing, energy-saving and emission-reduction, therefore, and supercritical CO
2fluid staining technique have anhydrous, reduce discharging, energy-conservation technical advantage, be a suitability for industrialized production new technology with development prospect.
Supercritical CO
2fluid refers to CO
2in the density fluid state higher than the non-condensed property under critical-temperature (Tc=31 DEG C) and critical pressure (Pc=7.2MPa) condition, namely at more than Tc by CO2 gas compression to higher than more than Pc, CO
2density can carry out consecutive variations significantly in the scope from gas to liquid.Supercritical CO
2the character of fluid system, as gas, specifically has the high density as liquid and the low viscosity as liquid.By changing these two performance variables of temperature and pressure of system, the density of fluid, viscosity (intermolecular distance) can be regulated, make it have specific physical property.
Supercritical CO
2the feature of fluid is as follows: 1, only slightly change pressure, its density is just more big changes, and due to its low viscosity and high diffusibility, is conducive to the movement of material; 2, because the temperature difference moves greatly, higher translational speed can be obtained.At present, supercritical CO is utilized
2the advantage of fluid, it is used for extraction and is separated with chromatographic and refined substance etc., such as extracting hop, natural product extraction etc., have a wide range of applications future in light industry, food, chemical industry, medicine and other fields.
As everyone knows, Colour Difference water consumption is many, electric energy and consumption of heat energy large, the chemicals used is many, dyestuff containing non-set in the waste water of discharging after dyeing and auxiliary agent, reclaim difficulty, waste water treatmentntrol difficult, needs constantly to increase cost of water treatment to reach the sewage drainage standard improved gradually.Obviously, conventional colouring method more and more will be difficult to adapt to national energy-saving and reduce discharging industrial development strategy.
Summary of the invention
The object of the invention is to: a kind of supercritical CO is provided
2fluid reducing dye colouring method, is intended to solve the problem that existing water dyeing causes shortage of water resources and pollution.
The object of the present invention is achieved like this:
A kind of supercritical CO
2fluid reducing dye colouring method, passes through supercritical CO
2fluid dissolving and reducing dyestuff, and add cosolvent, fabric is dyeed.
Described method is specially:
Put into dyestuff still by after reducing dye and cosolvent mixing, fabric is wound on dyeing axle and puts into dyeing caldron, input liquid carbon dioxide by booster pump, make by circulating pump the supercritical CO being dissolved with reducing dye
2dyeing fluid circulates between curling fabric ectonexine;
Or, reducing dye filter cake is put into dyestuff still, fabric is wound on dyeing axle and puts into dyeing caldron, input liquid carbon dioxide by booster pump, make by circulating pump the supercritical CO being dissolved with reducing dye
2dyeing fluid circulates between curling fabric ectonexine, and at the dyestuff dyeing cycle process initial stage, cosolvent is injected dyeing system.
Described reducing dye and fabric quality are than 0.1-6:100, and while by booster pump input liquid carbon dioxide, increase system pressure to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C, and the whole dyeing cycle time reaches 30min-150min.
Described reducing dye and cosolvent solid-liquid ratio 1:5-1:10, when cosolvent injected at the dyestuff dyeing cycle process initial stage, inject with the speed of flow 1ml-10ml/ minute.
Described cosolvent is select urea, Gu Lixin A, ethanol, acetone, chloroform, ethanol, be slightly soluble in benzene, ether, carbon tetrachloride, perchloroethylene, DMF a kind or 2-3 kind through composite gained.
The described fabric for dyeing before dyeing first through the preliminary treatment of natural fabric swelling agent, or, after dyeing system temperature reaches 40 DEG C-130 DEG C, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system.
Described natural fabric swelling agent is select in diethanol amine, ethylene glycol, polyethylene glycol and derivative, perchloroethylene, DMF, dimethyl sulfoxide (DMSO), isopropyl alcohol, n-butanol, chloroform a kind or 2-3 kind through composite gained.
Described reducing dye is the indigoids reducing dye without reduction reaction.
Described method also comprises:
After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.
Outstanding advantages of the present invention is: the present invention is by adopting supercritical CO
2fluid dissolves the reducing dye without reduction reaction, dyes, meanwhile, add cosolvent to increase reducing dye at supercritical CO to polyster fibre, cellulose fibre, protein fibre and fabric thereof
2the solubility, dye level etc. of fluid, and add natural fabric swelling agent, being beneficial to reducing dye enters fibrous inside and dyes, and both substantial saving in water resource, also achieves good Color.
Detailed description of the invention
In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with embodiment, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Supercritical CO provided by the invention
2fluid reducing dye colouring method is by adopting supercritical CO
2fluid dissolves the reducing dye without reduction reaction, dyes, meanwhile, add cosolvent to increase reducing dye at supercritical CO to polyster fibre, cellulose fibre, protein fibre and fabric thereof
2the solubility, dye level etc. of fluid, and add natural fabric swelling agent, be beneficial to reducing dye and enter fibrous inside and dye.
Reducing dye of the present invention had both had the character of DISPERSE DYES; can to synthetic dyeings such as terylene; there is again the character of reducing dye; but without reduction reaction; with subparticle or dissolved state infiltration, be diffused into fiber gap; cellulose fibre, protein fibre are dyeed, and the reducing dye particle diameter selected is less than or equal to 100 nanometers.
Some reducing dyes itself are DISPERSE DYES, and such as C.I. vat red 2 and C.I. Red-1 200 99 are same structures.Major part indigoids reducing dye has DISPERSE DYES performance concurrently, and they simultaneously above can contaminate terylene and cotton fiber, obtain identical color and luster and fastness.The dyestuff that screening unit fractionated molecule amount is less from reducing dye, there are the groups such as-OH ,-NH2 ,-NH at the ortho position of its carbonyl, easily forms hydrogen bond and makes to have gravitation between dye molecule.Select superfine powder or pulpous state reducing dye, be beneficial to the dissolving of reducing dye, infiltration and diffusion.Preferred reducing dye comprises: C.I. Vat Yellow2 9, C.I. Vat Yellow 14, C.I. vat red 14, C.I. vat red 2, C.I. Blue 21 133, C.I. vat red 8, C.I. Vat Violet 15, C.I. reduction purple 8.
Reducing dye is water insoluble, and preferred reducing dye can be dissolved in supercritical CO
2in fluid, realize in the supercritical state to the dyeing of fiber.In order to improve its dissolubility, the organic solvent that can have certain solubility property to reducing dye can be added.Preferred reducing dye cosolvent can be selected urea, Gu Lixin A (dihydroxyethylsulfide), ethanol, acetone, chloroform, ethanol, is slightly soluble in benzene, in ether, carbon tetrachloride, perchloroethylene, DMF (DMF) a kind or 2-3 kind be through composite polynary reducing dye cosolvent.
Described composite polynary reducing dye cosolvent is preferably main solvent with perchloroethylene, at urea, Gu Lixin A (dihydroxyethylsulfide), ethanol, acetone, chloroform, ethanol, be slightly soluble in benzene, ether, carbon tetrachloride, N, select 1-2 kind to be secondary solvent in dinethylformamide (DMF), according to below with reference to formulated:
Perchloroethylene 50%-80%
Secondary solvent A20%-50%
Secondary solvent B0%-20%.
Due to supercritical CO
2fluid can not take the hydrogen bond isopolarity key between fiber molecule apart, be difficult to make filament expansion, can select and the organic solvent of certain swelling behavior can be had to carry out preliminary treatment by the mode of padding, drying to fiber as natural fabric swelling agent to the natural fabric such as cellulose fibre, protein fibre, make fibre structure shredding, be conducive to reducing dye and enter fiber, or in dyeing course, add described swelling agent, can swollen fiber, partial reduction dyestuff can be dissolved again.Preferred natural fabric swelling agent can select a kind in diethanol amine, ethylene glycol, polyethylene glycol and derivative, perchloroethylene, DMF (DMF), dimethyl sulfoxide (DMSO), isopropyl alcohol, n-butanol, chloroform etc. or 2-3 kind through composite multicomponent natural filament expansion agent.
The agent of described composite multicomponent natural filament expansion is preferably main solvent with polyethylene glycol, at diethanol amine, ethylene glycol, polyethyleneglycol derivative, perchloroethylene, N, select 1-2 kind to be secondary solvent in dinethylformamide (DMF), dimethyl sulfoxide (DMSO), isopropyl alcohol, n-butanol, chloroform, according to below with reference to formulated:
Polyethylene glycol 50%-80%
Secondary solvent A20%-50%
Secondary solvent B5%-20%.
Such as, a concrete formulation Example of described composite multicomponent natural filament expansion agent is as follows:
Polyethylene glycol 50%-80%
DMF (DMF) 20%-50%
Dimethyl sulfoxide (DMSO) 5%-20%
Described supercritical CO
2fluid reducing dye colouring method is specially: according to reducing dye and cosolvent solid-liquid ratio 1:5-1:10, add in dyestuff still after taking a certain amount of reducing dye and cosolvent mixing, 0.1-6:100 is compared according to dyestuff and fabric quality, taking a certain amount of fabric is entirely wound on dyeing axle, and put into dyeing caldron, liquid carbon dioxide is inputted by booster pump, system pressure is made to be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C, makes by circulating pump the supercritical CO being dissolved with reducing dye
2dyeing fluid circulates between curling fabric ectonexine, and be conducive to dyestuff and adsorb equably, permeate, anchor at fibrous inside, the dyeing cycle time reaches 30min-150min; Or, reducing dye is put into dyestuff still, 0.1-6:100 is compared according to dyestuff and fabric quality, taking a certain amount of fabric is entirely wound on dyeing axle, put into dyeing caldron, input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C, makes by circulating pump the supercritical CO being dissolved with reducing dye
2dyeing fluid circulates between curling fabric ectonexine, and at the dyestuff dyeing cycle process initial stage, by a small-sized charge pump, according to dyestuff and cosolvent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, cosolvent is injected dyeing system, keep pressure 10MPa-30MPa, temperature 40 DEG C-130 DEG C, the dyeing cycle time reaches 30min-150min.The described fabric for dyeing can just first through the preliminary treatment of natural fabric swelling agent before dyeing, or, after dyeing system temperature reaches 40 DEG C-130 DEG C, by the charge pump for injecting cosolvent or separately with a small-sized charge pump, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system, the pressure and temperature of whole process or maintenance dyeing system.
After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.
In the above-mentioned methods, the Adding Way of cosolvent can optional one, and the processing method expanded to fabric is also optional one.
The K/S value of DYED FABRICS is measured with certain wavelength, more general supercritical CO by adopting DatacolorSF6OOX colour examining spectrometer (Datacolor company of the U.S.)
2the textile dyeing degree of depth of fluid dyeing, result shows that the dye level of colouring method provided by the invention promotes 8%-50%.
According to GBT3920-1997 textiles _ COLOR FASTNESS test _ colour fastness to rubbing and GBT3921-2008 textiles _ COLOR FASTNESS test _ fastness to soaping standard, dyefastness detection is carried out to the dacron of the dyeing of colouring method provided by the invention, result shows that DYED FABRICS is up to state standards, its fastness to soaping 3-5 level, colour fastness to rubbing 3-4 level.
It is below above-mentioned supercritical CO
2several specific embodiments of fluid reducing dye colouring method.
Embodiment 1
Take after the blue 1g and cosolvent 5ml-10ml of reducing dye mixes and put into dyestuff still; Take 100g fabrics of polyester to be entirely wound on dyeing axle, and put into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabrics of polyester ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; By a small-sized charge pump, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabrics of polyester after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted blue dacron, its fastness to soaping 3-5 level, colour fastness to rubbing 3-4.5 level.
Embodiment 2
Take after the red 1g of reducing dye and cosolvent 5ml-10ml mixes and put into dyestuff still; Take 100g through the pretreated cotton fabric of natural fabric swelling agent, be entirely wound on dyeing axle on and put into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabric ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted red cotton fabric, its fastness to soaping 3-4.5 level, colour fastness to rubbing 3-4 level.
Embodiment 3
Take after the yellow 1g and cosolvent 5ml-10ml of reducing dye mixes and put into dyestuff still; Taking 100g through natural fabric swelling agent is pretreated washs/cotton blended fiber fabric, to be entirely wound on dyeing axle and to put into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabric ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted yellow cotton fabric, its fastness to soaping 3-4.5 level, colour fastness to rubbing 3-4 level.
Embodiment 4
Take after the red 1g of reducing dye and cosolvent 5ml-10ml mixes and put into dyestuff still; Take 100g through the pretreated wool fibre fabric of natural fabric swelling agent, be entirely wound on dyeing axle on and put into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabric ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted red cotton fabric, its fastness to soaping 3-4.5 level, colour fastness to rubbing 3-4 level.
Embodiment 5
Take the red 3g of reducing dye and put into dyestuff still; Take 100g cotton fabric to be entirely wound on dyeing axle, and put into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa; Heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabric ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; By a small-sized charge pump, according to dyestuff and cosolvent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, cosolvent is injected dyeing system; After dyeing system temperature reaches 40 DEG C-130 DEG C, by charge pump, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted red cotton fabric, its fastness to soaping 3-4.5 level, colour fastness to rubbing 3-4 level.
Embodiment 6
Take the blue 3g of reducing dye and put into dyestuff still; Take 100g to wash/cotton fabric is entirely wound on dyeing axle, and puts into dyeing caldron; Input liquid carbon dioxide by booster pump, make system pressure be increased to 10MPa-30MPa; Heating systems temperature reaches 40 DEG C-130 DEG C; The supercritical CO being dissolved with reducing dye is made by circulating pump
2dyeing fluid circulates between curling fabric ectonexine, is conducive to dyestuff and adsorbs equably, permeates, anchors at fibrous inside; By a small-sized charge pump, according to dyestuff and cosolvent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, cosolvent is injected dyeing system; After dyeing system temperature reaches 40 DEG C-130 DEG C, by charge pump, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system; Keep pressure and temperature, the dyeing cycle time reaches 40min-120min.After completing the dyeing cycle time, reduce system pressure and reach 3MPa-8MPa, reduce system temperature and reach 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.Obtain brightly painted red cotton fabric, its fastness to soaping 3-4.5 level, colour fastness to rubbing 3-4 level.
The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.
Claims (4)
1. a supercritical CO
2fluid reducing dye colouring method, is characterized in that, pass through supercritical CO
2fluid dissolving and reducing dyestuff, and add cosolvent, fabric is dyeed, described cosolvent is for selecting urea, Gu Lixin A, acetone, chloroform, being slightly soluble in benzene, ether, carbon tetrachloride, perchloroethylene, N, 1 kind in dinethylformamide or 2-3 kind through composite gained, described reducing dye and cosolvent solid-liquid ratio 1:5-1:10;
Described method is specially: put into dyestuff still by after reducing dye and cosolvent mixing, is wound on by fabric on dyeing axle and puts into dyeing caldron, input liquid carbon dioxide, make by circulating pump the supercritical CO being dissolved with reducing dye by booster pump
2dyeing fluid circulates between curling fabric ectonexine;
Or, reducing dye filter cake is put into dyestuff still, fabric is wound on dyeing axle and puts into dyeing caldron, input liquid carbon dioxide by booster pump, make by circulating pump the supercritical CO being dissolved with reducing dye
2dyeing fluid circulates between curling fabric ectonexine, and at the dyestuff dyeing cycle process initial stage, cosolvent is injected dyeing system;
Described reducing dye compares 0.1-6:100 with fabric quality, while by booster pump input liquid carbon dioxide, increase system pressure to 10MPa-30MPa, heating systems temperature reaches 40 DEG C-130 DEG C, the whole dyeing cycle time reaches 30min-150min, when cosolvent injected at the dyestuff dyeing cycle process initial stage, inject with the speed of flow 1ml-10ml/ minute;
The described fabric for dyeing before dyeing first through the preliminary treatment of natural fabric swelling agent, or, after dyeing system temperature reaches 40 DEG C-130 DEG C, according to fabric and swelling agent solid-liquid ratio 1:5-1:10, with flow 1ml-10ml/ minute speed, swelling agent is injected dyeing system.
2. supercritical CO as claimed in claim 1
2fluid reducing dye colouring method, it is characterized in that, described natural fabric swelling agent is select in diethanol amine, ethylene glycol, polyethylene glycol and derivative, perchloroethylene, DMF, dimethyl sulfoxide (DMSO), isopropyl alcohol, n-butanol, chloroform a kind or 2-3 kind through composite gained.
3. supercritical CO as claimed in claim 1
2fluid reducing dye colouring method, is characterized in that, described reducing dye is the indigoids reducing dye without reduction reaction.
4. supercritical CO as claimed in claim 1
2fluid reducing dye colouring method, is characterized in that, described method also comprises: after completing the dyeing cycle time, reduces system pressure and reaches 3MPa-8MPa, reduces system temperature and reaches 20 DEG C-50 DEG C, carry out dyestuff, solvent and carbon dioxide recovery by separating still; Input a certain amount of carbon dioxide by booster pump, reach certain super critical condition, the fabric after wash cycles dyeing; Reclaim residue, carbon dioxide, step-down is lowered the temperature, and takes out DYED FABRICS.
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